Neurons encode the depth in stereoscopic images by combining the signals from the receptive fields in the two eyes. Local variations in single images can activate neurons that do not signal the correct disparity (false matches), giving rise to the stereo correspondence problem. We used binocular white-noise stimuli to decompose the responses of monkey primary visual cortex V1 neurons into the elements of a linear–nonlinearmodel (via spike-triggered covariance analysis). In our population of disparity-selective neurons, we find both excitatory and suppressive elements in many of the neurons. Their binocular receptive fields were aligned in a specific push–pull manner for disparity. We demonstrate that this arrangement reduces the responses t...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
Psychophysical studies suggest that stereopsis relies primarily on relative disparities, yet V1 neur...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...
Stereoscopic vision requires the correspondence problem to be solved, i.e., discarding "false" match...
Although there has been substantial progress in understanding the neurophysiological mechanisms of s...
AbstractStereoscopic vision requires the correspondence problem to be solved, i.e., discarding “fals...
A plane lying in depth is vividly perceived by viewing a random-dot stereogram (RDS) with a slight b...
nferring depth from binocular disparities is a difficult problem for the visual system because local...
Inferring depth from binocular disparities is a difficult problem for the visual system because loca...
Stereo vision relies on cortical signals that encode binocular disparity. In V1, the disparity energ...
To identify neuronal mechanisms underlying stereopsis, we characterized interactions between inputs ...
Most neurophysiological accounts of disparity selectivity in neurons of the primary visual cortex (V...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...
If a bar stimulus extends beyond a cell’s receptive field, then alterations in binocular disparity p...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
Psychophysical studies suggest that stereopsis relies primarily on relative disparities, yet V1 neur...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...
Stereoscopic vision requires the correspondence problem to be solved, i.e., discarding "false" match...
Although there has been substantial progress in understanding the neurophysiological mechanisms of s...
AbstractStereoscopic vision requires the correspondence problem to be solved, i.e., discarding “fals...
A plane lying in depth is vividly perceived by viewing a random-dot stereogram (RDS) with a slight b...
nferring depth from binocular disparities is a difficult problem for the visual system because local...
Inferring depth from binocular disparities is a difficult problem for the visual system because loca...
Stereo vision relies on cortical signals that encode binocular disparity. In V1, the disparity energ...
To identify neuronal mechanisms underlying stereopsis, we characterized interactions between inputs ...
Most neurophysiological accounts of disparity selectivity in neurons of the primary visual cortex (V...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Disparity-tuned cells in primary visual cortex (VI) are thought to play a significant role in the pr...
If a bar stimulus extends beyond a cell’s receptive field, then alterations in binocular disparity p...
The human ability to detect modulation of binocular disparity over time is poor compared with detect...
Psychophysical studies suggest that stereopsis relies primarily on relative disparities, yet V1 neur...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...